Chapter 4: Power and particle control

Loarte, A.; Lipschultz, B.; Kukushkin, A.S.; Matthews, G.F.; Stangeby, P.C.; Asakura, N.; Counsell, G.; Federici, G.; Kallenbach, A.; Krieger, K.; Mahdavi, A.; Philipps, V.; Reiter, D.; Roth, J.; Strachan, J.; Whyte, D.G.; Doerner, R.P.; Eich, T.; Fundamenski, W.; Herrmann, A.; Fenstermacher, M.E.; Ghendrih, Ph.; Groth, M.; Kirschner, A.; Konoshima, S.; LaBombard, B.; Lang, P. T.; Leonard, A.W.; Monier-Garbet, P.; Neu, R.; Pacher, H.D.; Pégouriè, B.; Pitts, R.A.; Takamura, S.; Terry, J. L.; Tsitrone, E.; Group, the ITPA Scrape-off Layer and Diver

doi:10.1088/0029-5515/47/6/s04

articleNuclear FusionJun 1, 2007GREEN OA

Chapter 4: Power and particle control

ALA. Loarte BLB. Lipschultz AKA.S. Kukushkin GMG.F. Matthews PSP.C. Stangeby

Plasma Technology (United States) · Massachusetts Institute of Technology · +19 more institutions

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Abstract

Progress, since the ITER Physics Basis publication (ITER Physics Basis Editors et al 1999 Nucl. Fusion 39 2137-2664), in understanding the processes that will determine the properties of the plasma edge and its interaction with material elements in ITER is described. Experimental areas where significant progress has taken place are energy transport in the scrape-off layer (SOL) in particular of the anomalous transport scaling, particle transport in the SOL that plays a major role in the interaction of diverted plasmas with the main-chamber material elements, edge localized mode (ELM) energy deposition on material elements and the transport mechanism for the ELM energy from the main plasma to the plasma facing…

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Plasma
Fusion power
Divertor
Nuclear engineering
Materials science
Enhanced Data Rates for GSM Evolution
Nuclear physics
Fusion

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